Load termination sensing circuit

1. In an integrated circuit, a line driver having an output, comprising: an amplifier, having an open-loop frequency response and an output coupled to the output of the line driver; a current detector measuring output current of the amplifier; and means for changing the open-loop frequency response of the amplifier when the output current of the amplifier is less than a predetermined value.

2. In the integrated circuit, the line driver as recited in claim 1, wherein the open-loop frequency response of the amplifier is reduced when the output current of the amplifier is less than the predetermined value.

3. In the integrated circuit, the line driver as recited in claim 2, wherein the amplifier has a bias current input and the open-loop frequency response is reduced based on the output current of the amplifier by reducing the bias current to the amplifier.

4. In an integrated circuit, a line driver having an output, comprising: an amplifier, having an open-loop frequency response and an output coupled to the output of the line driver; a current detector measuring output current of the amplifier; and means for changing the open-loop frequency response of the amplifier when the output current of the amplifier is less than a predetermined value, wherein the open-loop frequency response of the amplifier is reduced when the output current of the amplifier is less than the predetermined value, wherein the current detector comprises, a current mirror outputting a reference current, and a sampling circuit, responsive to the amplifier by outputting a scaled current in proportion to the output current of the amplifier; wherein if the scaled current is less than the reference current, which is proportional to the predetermined value of current, the open-loop frequency response of the amplifier is reduced.

5. In the integrated circuit, the line driver as recited in claim 4, further comprising a current source coupled to the current mirror.

6. In the integrated circuit recited in claim 2, a balanced line driver having two halves, each of the two halves comprising the line driver.

7. In an integrated circuit, a line driver having an output, comprising: an amplifier, having an open-loop frequency response and an output coupled to the output of the line driver; a current detector measuring output current of the amplifier; and means for changing the open-loop frequency response of the amplifier when the output current of the amplifier is less than a predetermined value, wherein the open-loop frequency response of the amplifier is reduced when the output current of the amplifier is less than the predetermined value, wherein the open-loop frequency response is reduced by selectively adding an additional dominant pole to the amplifier.

8. In the integrated circuit, the line driver as recited in claim 7, wherein the additional pole is provided by a capacitor.

9. A method of stabilizing a line driver when a load on the driver is substantially reduced, the driver having an amplifier for supplying an output current to the load, comprising the steps of: measuring the output current to the load; and reducing the open-loop frequency response of the amplifier when the output current is less than a predetermined amount.

10. The method as recited in claim 9, the step of reducing the open-loop frequency response of the amplifier further comprises: selectively reducing bias current to the amplifier.

11. A method of stabilizing a line driver when a load on the driver is substantially reduced, the driver having an amplifier for supplying an output current to the load, comprising the steps of: measuring the output current to the load; and reducing the open-loop frequency response of the amplifier when the output current is less than a predetermined amount, the measuring step further comprises the steps of: sampling the output current to generate a scaled current at an output, the amount of the scaled current being proportional to the output current; and comparing the scaled current to an amount of current proportional to the predetermined amount, wherein the open-loop frequency response of the amplifier is reduced when the scaled current less than the amount of current proportional to the predetermined amount.

12. The method as recited in claim 11, the step of reducing the open-loop frequency response of the amplifier further comprises: selectively adding a dominant pole to the frequency response of the amplifier.